Walking tall: UH student working on space suit redesign for NASA

Feb 12, 2007

Space suits for astronauts may get a new and better design following a University of Houston doctoral student's locomotion stability research. Melissa Scott-Pandorf is a Fellow of the Texas Space Grant Consortium.

"NASA's mission to send humans back to the Moon is closer to a reality every day," Scott-Pandorf, a doctoral student in the UH Department of Health and Human Performance, said. "Astronauts will need to travel easily over the planet's terrain, meaning their mobility will be important for overall mission success."

To begin her study, Scott-Pandorf looked at hours and hours of lunar moon-walk video to determine how fast and how far astronauts traveled wearing all of the needed equipment. That information, combined with metabolic indicators collected while the astronauts worked on the lunar surface, was used to calculate the amount of energy expelled while walking on the moon. Scott-Pandorf said this is valuable information that will help NASA officials decide how much is too much to include on an astronaut's space suit.

"I can't tell you how many times I watched the astronauts fall down on the lunar videos," she joked. "Obviously, it isn't meant to be funny. But it's difficult for them to get up with the survival pack on their back and those bulky suits. We're hoping our new research projects will lead to a streamlined space suit that makes it easy to navigate the terrain."

As part of her new work, Scott-Pandorf uses a weight suspension system in the UH Laboratory of Integrated Physiology (LIP). The apparatus is used as a reduced gravity simulator that helps to evaluate locomotion stability. A subject is buckled into the suspension system and simply walks as Scott-Pandorf records data about the person's gait. With this system, she can investigate how mass distribution and pressure levels of the space suit may influence the ease in which astronauts travel a planet's terrain.

"For one thing, it's clear that the placement of the life support pack is too high on the astronaut," Scott-Pandorf said. "Possible redesign ideas are to alter the pack to fit the front and back of the space suit evenly or create a pack that attaches closer to the waist, which would lower the astronaut's center of gravity. It's the same idea as if you were balancing on a surf board bending your knees and staying low. This lowers your center of mass and allows you more stability."

Scott-Pandorf is also considering research to investigate the mobility needed at the joints of the space suit that would allow an astronaut to move more naturally, making it easier to recover from a fall or to keep from falling at all.

"In addition, the space suspension system we are using is similar to what has been used as therapy tools for persons with spinal cord injuries or the elderly. Conceivably using the system for our research could usher in new ideas for new therapies for those populations," Scott-Pandorf said.

Source: University of Houston

Explore further: Why we need to keep adding leap seconds

Related Stories

Recommended for you

Why we need to keep adding leap seconds

just added

Today at precisely 10am Australian Eastern Standard time, something chronologically peculiar will take place: there'll be an extra second between 09:59:59 and 10:00:00.

Helping Europe prepare for asteroid risk

50 minutes ago

Each year, astronomers worldwide discover over 1000 new asteroids or other space rocks that could strike our planet. And if one is spotted heading towards Earth, experts working in ESA and national emergency ...

Image: Increasingly active Comet 67P

1 hour ago

On 13 August 2015, Comet 67P/Churyumov–Gerasimenko will reach its closest point to the Sun along its 6.5-year long orbit. It will be around 185 million km from the Sun at 'perihelion', between the orbits ...

Image: Modeling Gaia's avionics on the ground

1 hour ago

A full-size working model of Gaia's internal systems arrived in Germany this week. The Avionics Model is mounted in a circular set-up representing the systems on the actual satellite, now orbiting the Sun–Earth ...

Video: Preparing the ExoMars spacecraft for 2016 launch

1 hour ago

The ExoMars spacecraft is almost complete. A joint mission between ESA and Roscosmos, it begins with the launch of the ExoMars orbiter in 2016 and carries an aerodynamically designed capsule containing a robotic lander. Getting ...

User comments : 0

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.